AIMS: We tested the hypothesis that mutations in the human ventricular essential myosin light chain (hVLC-1) that are associated with hypertrophic cardiomyopathy (HCM) affect protein structure, binding to the IQ1 motif of cardiac myosin heavy chain (MYH) and sarcomeric sorting in neonatal cardiomyocytes. METHODS AND RESULTS: We employed circular dichroism and surface plasmon resonance spectroscopy to investigate structural properties and protein-protein interactions of a recombinant head-rod fragment of rat cardiac β-MYH (amino acids 664-915) with alanine-mutated IQ2 domain (rβ-MYH(664-915)IQ2(ala4)) and normal or five mutated (M149V, E143K, A57G, E56G, R154H) hVLC-1 forms. Double epitope-tagging competition was used to monitor the intracellular localization of exogenously introduced normal and E56G-mutated (hVLC-1(E56G)) hVLC-1 constructs in neonatal rat cardiomyocytes. Fluorescence lifetime imaging microscopy was applied to map the microenvironment of normal and E56G-mutated hVLC-1 in permeabilized muscle fibres. Affinity of M149V, E143K, A57G, and R154H mutated hVLC-1/rβ-MYH(664-915)IQ2(ala4) complexes was significantly lower compared with the normal hVLC-1/rβ-MYH(664-915)IQ2(ala4) complex interaction. In particular, the E56G mutation induced an ∼30-fold lower MYH affinity. Sorting specificity of E56G-mutated hVLC-1 was negligible compared with normal hVLC-1. Fluorescence lifetime of fibres replaced with hVLC-1(E56G) increased significantly compared with hVLC-1-replaced fibres. CONCLUSION: Disturbed myosin binding of mutated hVLC-1 may provide a pathomechanism for the development of HCM.
AIMS: We tested the hypothesis that mutations in the humanventricular essential myosin light chain (hVLC-1) that are associated with hypertrophic cardiomyopathy (HCM) affect protein structure, binding to the IQ1 motif of cardiac myosin heavy chain (MYH) and sarcomeric sorting in neonatal cardiomyocytes. METHODS AND RESULTS: We employed circular dichroism and surface plasmon resonance spectroscopy to investigate structural properties and protein-protein interactions of a recombinant head-rod fragment of rat cardiac β-MYH (amino acids 664-915) with alanine-mutated IQ2 domain (rβ-MYH(664-915)IQ2(ala4)) and normal or five mutated (M149V, E143K, A57G, E56G, R154H) hVLC-1 forms. Double epitope-tagging competition was used to monitor the intracellular localization of exogenously introduced normal and E56G-mutated (hVLC-1(E56G)) hVLC-1 constructs in neonatal rat cardiomyocytes. Fluorescence lifetime imaging microscopy was applied to map the microenvironment of normal and E56G-mutated hVLC-1 in permeabilized muscle fibres. Affinity of M149V, E143K, A57G, and R154H mutated hVLC-1/rβ-MYH(664-915)IQ2(ala4) complexes was significantly lower compared with the normal hVLC-1/rβ-MYH(664-915)IQ2(ala4) complex interaction. In particular, the E56G mutation induced an ∼30-fold lower MYH affinity. Sorting specificity of E56G-mutated hVLC-1 was negligible compared with normal hVLC-1. Fluorescence lifetime of fibres replaced with hVLC-1(E56G) increased significantly compared with hVLC-1-replaced fibres. CONCLUSION: Disturbed myosin binding of mutated hVLC-1 may provide a pathomechanism for the development of HCM.
Authors: Pradeep Natarajan; Nina B Gold; Alexander G Bick; Heather McLaughlin; Peter Kraft; Heidi L Rehm; Gina M Peloso; James G Wilson; Adolfo Correa; Jonathan G Seidman; Christine E Seidman; Sekar Kathiresan; Robert C Green Journal: Sci Transl Med Date: 2016-11-09 Impact factor: 17.956
Authors: Yihua Wang; Chen-Ching Yuan; Katarzyna Kazmierczak; Danuta Szczesna-Cordary; Thomas P Burghardt Journal: Open Biol Date: 2018-04 Impact factor: 6.411